Micromechanical magnetic devices
First Claim
1. A micromechanical magnetically actuated device comprising:
- (a) a rotor having a periphery with a diameter less than about 200 μ
m and formed of a ferromagnetic material, a substrate, and means for mounting the rotor for rotation on the substrate about an axis of rotation, the rotor formed to have a high reluctance path therethrough and a low reluctance path therethrough;
(b) a stator having pole pieces formed of ferromagnetic material mounted on the substrate around the rotor for directing magnetic flux to the rotor and means for providing a time varying magnetic flux through the pole pieces to the rotor which rotates about the axis of rotation of the rotor.
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Abstract
Micromechanical devices are formed on a substrate using a sacrificial layer deep X-ray lithography process to produce a rotating microrotor which is driven magnetically. The rotor typically has a diameter of a few hundred microns or less and is formed as a free structure which is assembled onto a hub formed on a substrate. Stator pole pieces are formed on the substrate of a ferromagnetic material surrounding the rotor, and are also preferably formed by a deep X-ray lithography process followed by electroplating of a ferromagnetic material such as nickel. The stator pole pieces are supplied with magnetic flux, such as from a current flowing through a conductor surrounding the magnetic pole pieces which is integrated with the pole pieces on the substrate. Separate electromagnets can also be utilized to provide the magnetic flux to the pole pieces to provide a rotating magnetic field in the region of the rotor to drive the rotor.
88 Citations
13 Claims
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1. A micromechanical magnetically actuated device comprising:
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(a) a rotor having a periphery with a diameter less than about 200 μ
m and formed of a ferromagnetic material, a substrate, and means for mounting the rotor for rotation on the substrate about an axis of rotation, the rotor formed to have a high reluctance path therethrough and a low reluctance path therethrough;(b) a stator having pole pieces formed of ferromagnetic material mounted on the substrate around the rotor for directing magnetic flux to the rotor and means for providing a time varying magnetic flux through the pole pieces to the rotor which rotates about the axis of rotation of the rotor. - View Dependent Claims (5, 6, 7)
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2. A micromechanical magnetically actuated device comprising:
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(a) a rotor having a periphery with a diameter less than about 200 μ
m and formed of a ferromagnetic material, a substrate, and means for mounting the rotor for rotation on the substrate about an axis of rotation, the rotor formed to have a high reluctance path therethrough and a low reluctance path therethrough;(b) a stator having pole pieces formed of ferromagnetic material mounted on the substrate around the rotor for directing magnetic flux to the rotor and means for providing a time varying magnetic flux through the pole pieces to the rotor which rotates about the axis of rotation of the rotor, wherein the means for providing the time varying magnetic flux includes an external electromagnet having two coils mounted around flux guides which extend to the stator pole pieces to provide flux to the stator pole pieces on opposite sides of the rotor, the stator pole pieces being formed in pairs which are arranged perpendicular to one another about the rotor.
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3. A micromechanical magnetically actuated device comprising:
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(a) a rotor having a periphery with a diameter less than about 200 μ
m and formed of a ferromagnetic material, a substrate, and means for mounting the rotor for rotation on the substrate about an axis of rotation, the rotor formed to have a high reluctance path therethrough and a low reluctance path therethrough;(b) a stator having pole pieces formed of ferromagnetic material mounted on the substrate around the rotor for directing magnetic flux to the rotor and means for providing a time varying magnetic flux through the pole pieces to the rotor which rotates about the axis of rotation of the rotor, wherein the stator pole pieces are formed as two pairs of pole pieces arranged perpendicularly to one another about the rotor, and wherein the means for providing a time varying flux includes a conductor formed around each of the pole pieces to induce a magnetic field therein when current is passed through the conductor, wherein the stator also includes a flux return path structure on the substrate formed of a ferromagnetic material which connects the stator pole pieces to provide a flux return path therethrough so that a complete path is formed between opposite pairs of stator pole pieces through the rotor.
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4. A micromechanical magnetically actuated device comprising:
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(a) a rotor having a periphery with a diameter less than about 200 μ
m and formed of a ferromagnetic material, a substrate, and means for mounting the rotor for rotation on the substrate about an axis of rotation, the rotor formed to have a high reluctance path therethrough and a low reluctance path therethrough;(b) a stator having pole pieces formed of ferromagnetic material mounted on the substrate around the rotor for directing magnetic flux to the rotor and means for providing a time varying magnetic flux through the pole pieces to the rotor which rotates about the axis of rotation of the rotor, wherein the stator pole pieces are deposited by electroplating metal onto the substrate to a depth of at least 50 μ
m.
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8. A micromechanical magnetically actuated device comprising:
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(a) a rotor having a periphery with a diameter less than about 200 μ
m and formed of a ferromagnetic material, a substrate, and means for mounting the rotor for rotation on the substrate about an axis of rotation, the rotor formed to have a high reluctance path therethrough and a low reluctance path therethrough;(b) a stator having pole pieces formed of ferromagnetic material mounted on the substrate around the rotor for directing magnetic flux to the rotor and means for providing a time varying magnetic flux through the pole pieces to the rotor which rotates about the axis of rotation of the rotor, wherein the stator pole pieces are formed in two pairs arranged perpendicularly to one another about the rotor and including a flux return path structure formed of ferromagnetic material on the substrate which connects the stator pole pairs to provide a flux return path for each pair of pole pieces, wherein the means for providing a magnetic flux in the pole pieces includes a conductor formed around each of the pole pieces to induce a magnetic field therein when current is supplied to the conductors, and including electrical insulating material encasing the conductors around the pole pieces. - View Dependent Claims (9, 10)
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11. A micromechanical rotor comprising:
a unitary rotor structure formed of a ferromagnetic metal having a circular periphery with a diameter less than about 200 μ
m, a vertical height less than about 200 μ
m, an outer ring which defines the outer periphery of the rotor structure, gear teeth formed on the outer periphery of the rotor structure, a center bar extending in one direction through the center of the rotor structure between opposite sides of the ring to provide a low reluctance path from one side of the rotor outer periphery to the other, with openings formed in the rotor structure on either side of the center bar between the center bar and the outer ring to provide a high reluctance path from one side of the rotor periphery to the other, and a central opening in the center bar to admit a hub on which the rotor structure rotates.- View Dependent Claims (12, 13)
Specification